US1814720A - Preparation of ductile vanadium - Google Patents

Preparation of ductile vanadium Download PDF

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Publication number
US1814720A
US1814720A US796A US79625A US1814720A US 1814720 A US1814720 A US 1814720A US 796 A US796 A US 796A US 79625 A US79625 A US 79625A US 1814720 A US1814720 A US 1814720A
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Prior art keywords
vanadium
calcium
oxide
ductile
preparation
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US796A
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Marden John Wesley
Malcolm N Rich
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Westinghouse Lamp Co
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Westinghouse Lamp Co
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    • CCHEMISTRY; METALLURGY
    • C22METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
    • C22BPRODUCTION AND REFINING OF METALS; PRETREATMENT OF RAW MATERIALS
    • C22B34/00Obtaining refractory metals
    • C22B34/20Obtaining niobium, tantalum or vanadium
    • C22B34/22Obtaining vanadium

Definitions

  • This invention relates to the preparation of the rare or refractory metals in coherent, ductile form and more particularly to the preparation of ductile vanadium.
  • Vanadium powder prepared by this process is very brittle, hard and crystalline, and entirely unsuitable for use in preparing ductile vanadium.
  • the preparation of the oxygenfree chloride is attended with the greatest difficulty and since pure hydrogen is also difficult to obtain, the resultant powder is alwalys contaminated with oxides of vanadium.
  • Vanadium differs from tantalum in that its oxide is not so readily dissociatable on heat treatment as the oxide of tantalum. On this account the process of Von Bolton is not suitable for its production. Further, it differs from tungsten or molybdenum in its properties toward hydrogen. Pure vanadium may be worked cold without any coverings if desired but if a piece of pure ductile vanadium is heated in hydrogen to a red heat, it immediately becomes extremely brittle and fragile and cannot again be worked either hot or cold.
  • the oxide of vanadium, V 0 is carefully prepared so as to be in very pure condition, particularly free from iron. silica, uranium and the like.
  • the pure oxide is reduced by mixing with calcium as the reducing agent and calcium chloride as a fluxing agent.
  • the mixture or charge is placed in a bomb which is sealed from the atmosphere and the bomb is then heated to effect the reaction.
  • the undesirable products may be removed by treatment with water and acid and the vanadium thus extracted.
  • the vanadium is obtained in the form of a ver coarse powder, together With beads of su directly into desired 'placing the same in a furnace such as described in Patent #1.480.301. "The heat treatment to remove the hydrogen may follow the method described in copending apgen may not be entirely removed. 'The,
  • quantity of hydrogen present in the finished product may be indicated bythe ductility of the metal. The more ductile it is the greater the freedom from hydrogen.
  • -Vanadium metal prepared by treatment of the powder in the high frequency furnace or from the beads resulting from the reduc tion of the oxide by calcium and calcium chloride, may be cold worked or else placed in a slug of Norway iron and cold worked, or else the slug may be heated and the working 'continued under such conditions.
  • the vanadium is workedunder iron, the latter may be removed by dissolving with hydrochloric acid, but not nitric or sulphuric acids, since vanadium is readily solublein these last two acids'
  • the vanadium 'produced in accordance with the foregoing process has some properties in common with tantalum to which it has certain chemical relations, both elements belonging to the same periodic group.
  • vanadium produced by us by practicing the foregoing process has a high melting point, low atomic weight and does not volatilize or blacken a bulb even at its melting point.
  • the property of' low volatility makes the material suitable for many obvious uses. It is very useful for a backing for X-ray targets as set forth in the oopending application Serial No. 461,051 filed Apr. 13, 1921, assigned to the same assignee as the present application;
  • the method of preparing vanadium which comprises reducing an oxide of vanadium. by means of calcium in the presence of an alkaline earth halide capable of taking up calcium oxide formed during the reaction and which does not contaminate the vanadium, said reduction being effected in a closed bomb.
  • the method of preparing vanadium which comprises reducing an oxide of vanadium by means of calcium in the presence of an alkaline'earth halide capable of taking up calcium oxide formed during the reaction and whichdoes not contaminate the vanadium, said reduction being effected away from the atmosphere.

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Manufacturing & Machinery (AREA)
  • Materials Engineering (AREA)
  • Mechanical Engineering (AREA)
  • Metallurgy (AREA)
  • Organic Chemistry (AREA)
  • Manufacture And Refinement Of Metals (AREA)

Description

I Patented July 14, 1931 UNITED STATES PATENT OFFICE JOHN WESLEY MARDEN AND MALCOLM N. RICH, OF EASTORANGE, NEW JERSEY, AS- SIGNORS T0 WESTINGHOUSE LAM]? COMPANY, A CORPORATION OF PENNSYLVANIA.
PREPARATION OF IDUC'IIILE VANADIUM No Drawing."
This invention relates to the preparation of the rare or refractory metals in coherent, ductile form and more particularly to the preparation of ductile vanadium.
Several attempts have been made by using different processes to prepare vanadium in the ductile condition. One of these methods I consisted in reducing an oxygen-free vanadium chloride with hydrogen. Vanadium powder prepared by this process is very brittle, hard and crystalline, and entirely unsuitable for use in preparing ductile vanadium. The preparation of the oxygenfree chloride is attended with the greatest difficulty and since pure hydrogen is also difficult to obtain, the resultant powder is alwalys contaminated with oxides of vanadium.
nother of these processes is that employed by Moissan and consisting in reducing the oxide by means of carbon. The vanadium thus obtained is not useful for thereason that it is contaminated with considerable carbon, as high as 4.4 to 5.3%.
Von Bolton claims to have produced vanadium by following the process for making tantalum, but our experience with this process indicates that vanadium which is ductile, cannot be made thereby. Vanadium differs from tantalum in that its oxide is not so readily dissociatable on heat treatment as the oxide of tantalum. On this account the process of Von Bolton is not suitable for its production. Further, it differs from tungsten or molybdenum in its properties toward hydrogen. Pure vanadium may be worked cold without any coverings if desired but if a piece of pure ductile vanadium is heated in hydrogen to a red heat, it immediately becomes extremely brittle and fragile and cannot again be worked either hot or cold. The methods for the preparation of ductile tungsten or molybdenum are not any more satisfactory for the preparation of vanadium than the processes of Von Bolton. All of these processes will produce impure vanadium but none except the rocess hereindescribed will yield pure ductile metal.
Other methods of preparing vanadium such as by electrolysis, reduction of the ox- Application' filed January 6, 1925. Serial No. 796.
crystal analysis and consequently it should.
be a metal capable of coldworking.
In preparing ductile vanadium in accordance with the present invention, recourse was had to-Vthe method described in copending vapplication Serial No. 618,544., Marden et al., filed February 12, 1923, and more fully set forth in copending application Serial No. 717,940, Marden et al., filed June 5, 1924, both of which are assigned to the same assignee as the present application.
According to the process described in the copending applications referred to and the present invention, the oxide of vanadium, V 0 is carefully prepared so as to be in very pure condition, particularly free from iron. silica, uranium and the like. The pure oxide is reduced by mixing with calcium as the reducing agent and calcium chloride as a fluxing agent. The mixture or charge is placed in a bomb which is sealed from the atmosphere and the bomb is then heated to effect the reaction. Upon completion of the reaction, the undesirable products may be removed by treatment with water and acid and the vanadium thus extracted. The vanadium is obtained in the form of a ver coarse powder, together With beads of su directly into desired 'placing the same in a furnace such as described in Patent #1.480.301. "The heat treatment to remove the hydrogen may follow the method described in copending apgen may not be entirely removed. 'The,
quantity of hydrogen present in the finished product may be indicated bythe ductility of the metal. The more ductile it is the greater the freedom from hydrogen.
From the foregoing it will be observed that the process contemplates the'reduction of a pure oxide of vanadium by means of calcium in the presence of calcium chloride,
the recovery of the resulting powder, and its heat treatment to such a high temperature that substantially all of the hydrogen, which maybe present, is removed, i. e., until fusion occurs. The metal'thus obtained can then be worked into desired shapes. 7
-Vanadium metal prepared by treatment of the powder in the high frequency furnace or from the beads resulting from the reduc tion of the oxide by calcium and calcium chloride, may be cold worked or else placed in a slug of Norway iron and cold worked, or else the slug may be heated and the working 'continued under such conditions. In case the vanadium is workedunder iron, the latter may be removed by dissolving with hydrochloric acid, but not nitric or sulphuric acids, since vanadium is readily solublein these last two acids' The vanadium 'produced in accordance with the foregoing process has some properties in common with tantalum to which it has certain chemical relations, both elements belonging to the same periodic group. It has been found that vanadium produced by us by practicing the foregoing process has a high melting point, low atomic weight and does not volatilize or blacken a bulb even at its melting point. The property of' low volatility makes the material suitable for many obvious uses. It is very useful for a backing for X-ray targets as set forth in the oopending application Serial No. 461,051 filed Apr. 13, 1921, assigned to the same assignee as the present application;
Modifications of the foregoing process may suggest themselves to those skilled in the art, but such as come within the scope of the appended claims are contemplated by. us as forming part of our invention.
What is claimed is:
1. The method of preparing vanadium.
which comprises reducing an oxide ofvanadium by means of calcium in the presence of an alkaline earth halide capable of taking calcium oxide formed during the reaction and which does not contaminate the vanadium.
2. The method of preparing vanadium which comprises reducing an oxide of vanadium. by means of calcium in the presence of an alkaline earth halide capable of taking up calcium oxide formed during the reaction and which does not contaminate the vanadium, said reduction being effected in a closed bomb.
3. The preparation of vanadium comprising reducing vanadium oxide by means of calcium in the presence of calcium chloride.
4. The preparation of vanadium compris- 'ing reducing vanadium oxide by means 'of calcium in the presence of calcium chloride, said reduction being effected in a closed bomb.'
The method. ofpreparin'g vanadium which comprises reducing vanadium oxide 'free from silica, iron and other impurities,
by means of calcium in the presence of an alkaline earth halide capable of taking up calcium oxide formed during the reaction 'and which does not contaminate the va nadium. I
(3.1he method of preparing vanadium which comprises-reducing vanadium oxide freelfrom silica, iron and other impurities,
by means of calcium in the presence of an alkaline earth halide capable of taking up calcium-oxide formed during the reaction and which does not contaminate the vanadi- -uin,-said reduction being carried out in a closed bomb.
7. The method of preparing vanadium which comprises reducing an oxide of vanadium by means of calcium in the presence of an alkaline'earth halide capable of taking up calcium oxide formed during the reaction and whichdoes not contaminate the vanadium, said reduction being effected away from the atmosphere.
8. The reparation of vanadium comprising reducmg'vanadium oxide by means of calcium in the presence of calcium chloride said reduction being efiected away from the atmosphere.
9. The method of preparing a shaped body of ductile vanadium'which comprises reducing a pure oxide of vanadium by calcium in the presence of calcium chloride, recovering the' vanadium, heat treating the powder in a vacuum until fused and working the metal to the desired form.
In testimony whereof we have hereunto subscribed our names this 5th day of January,"1925.
ill
US796A 1925-01-06 1925-01-06 Preparation of ductile vanadium Expired - Lifetime US1814720A (en)

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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2561526A (en) * 1949-09-30 1951-07-24 Robert K Mckechnie Production of pure ductile vanadium from vanadium oxide
US2653869A (en) * 1950-01-12 1953-09-29 Westinghouse Electric Corp Manufacture of ductile vanadium
US2778725A (en) * 1952-07-18 1957-01-22 Union Carbide & Carbon Corp Method for making powdered vanadium metal
US3166415A (en) * 1960-12-28 1965-01-19 Union Carbide Corp Magnesium-based alloys
US3420659A (en) * 1967-10-11 1969-01-07 Foote Mineral Co Method for the production of vanadium alloys
US11247270B2 (en) * 2019-01-31 2022-02-15 Na Wang Method for preparing vanadium and vanadium alloy powder from vanadium-containing materials through shortened process

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2561526A (en) * 1949-09-30 1951-07-24 Robert K Mckechnie Production of pure ductile vanadium from vanadium oxide
US2653869A (en) * 1950-01-12 1953-09-29 Westinghouse Electric Corp Manufacture of ductile vanadium
US2778725A (en) * 1952-07-18 1957-01-22 Union Carbide & Carbon Corp Method for making powdered vanadium metal
US3166415A (en) * 1960-12-28 1965-01-19 Union Carbide Corp Magnesium-based alloys
US3420659A (en) * 1967-10-11 1969-01-07 Foote Mineral Co Method for the production of vanadium alloys
US11247270B2 (en) * 2019-01-31 2022-02-15 Na Wang Method for preparing vanadium and vanadium alloy powder from vanadium-containing materials through shortened process

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